public DependencyConstraintModel(DependencyConstraint constraint) { Id = constraint.Id; Index = constraint.Index; Negated = constraint.Negated; SelectedMode = constraint.Mode; Description = constraint.Description; if (constraint.ForPeriodicTimeInterval != null) { if (constraint.ForPeriodicTimeInterval.Id != 0) { ForPeriodicTimeInterval = new PeriodicTimeIntervalModel(constraint.ForPeriodicTimeInterval, (DateTime)constraint.ForTimeInterval.StartTime.Instant, (DateTime)constraint.ForTimeInterval.EndTime.Instant); ForPeriodicTimeInterval.IsSet = true; ForPeriodicTimeInterval.Index = constraint.Index; } } else { ForPeriodicTimeInterval = new PeriodicTimeIntervalModel(); } ResourceObjects = new List <string>(); ResourceObjects.Add("Single Resource"); Implicit = constraint.Implicit; Quantity = constraint.Quantity; QuantityComparisonOperator = constraint.QuantityComparisonOperator; ObjectName = constraint.ForResource.Name; ObjectId = constraint.ForResource.Id.ToString(); }
public BlockingConstraintModel(BlockingConstraint constraint) { Id = constraint.Id; Index = constraint.Index; Negated = constraint.Negated; SelectedMode = constraint.Mode; Description = constraint.Description; AllUsers = constraint.AllUsers; ForEver = constraint.ForEver; ForTimeInterval = new TimeInterval(); if (constraint.ForPeriodicTimeInterval != null) { if (constraint.ForPeriodicTimeInterval.Id != 0) { ForPeriodicTimeInterval = new PeriodicTimeIntervalModel(constraint.ForPeriodicTimeInterval, (DateTime)constraint.ForTimeInterval.StartTime.Instant, constraint.ForTimeInterval.EndTime.Instant); ForPeriodicTimeInterval.IsSet = true; ForPeriodicTimeInterval.Index = constraint.Index; } else { ForPeriodicTimeInterval = new PeriodicTimeIntervalModel(); } } if (constraint.ForPerson != null) { if (constraint.ForPerson.Self is PersonGroup) { PersonGroup pGroup = (PersonGroup)constraint.ForPerson.Self; // pGroup.Users.ToList().ForEach(u => ForPersons.Add(new PersonInConstraint(u, pGroup.Id, constraint.Index))); } else if (constraint.ForPerson.Self is IndividualPerson) { IndividualPerson iPerson = (IndividualPerson)constraint.ForPerson.Self; ForPersons.Add(new PersonInConstraint(iPerson.Person, iPerson.Id, constraint.Index)); } } if (constraint.ForTimeInterval != null) { TimeInterval timeInterval = new TimeInterval(); timeInterval = constraint.ForTimeInterval.Self; timeInterval.StartTime = constraint.ForTimeInterval.StartTime.Self; timeInterval.EndTime = constraint.ForTimeInterval.EndTime.Self; ForTimeInterval = timeInterval; } else { ForTimeInterval = new TimeInterval(); } }
public ResourceConstraintModel() { Index = 0; ConstraintType = new List <string>(); ConstraintType.Add("Dependency"); ConstraintType.Add("Blocking"); ConstraintType.Add("Quantity"); Mode = new List <ConstraintMode>(); Mode.Add(ConstraintMode.all); Mode.Add(ConstraintMode.each); ForPersons = new List <PersonInConstraint>(); ForPeriodicTimeInterval = new PeriodicTimeIntervalModel(); }
public BlockingConstraintModel() { ForTimeInterval = new TimeInterval(); ForPeriodicTimeInterval = new PeriodicTimeIntervalModel(); }